//////////////////////////////////////////////////////////////////////
//
// 3D Studio Model Class
// by: Matthew Fairfax
//
// Model_3DS.h: interface for the Model_3DS class.
// This is a simple class for loading and viewing
// 3D Studio model files (.3ds). It supports models
// with multiple objects. It also supports multiple
// textures per object. It does not support the animation
// for 3D Studio models b/c there are simply too many
// ways for an artist to animate a 3D Studio model and
// I didn't want to impose huge limitations on the artists.
// However, I have imposed a limitation on how the models are
// textured:
// 1) Every faces must be assigned a material
// 2) If you want the face to be textured assign the
//    texture to the Diffuse Color map
// 3) The texture must be supported by the GLTexture class
//    which only supports bitmap and targa right now
// 4) The texture must be located in the same directory as
//    the model
//
// Support for non-textured faces is done by reading the color
// from the material's diffuse color.
//
// Some models have problems loading even if you follow all of
// the restrictions I have stated and I don't know why. If you
// can import the 3D Studio file into Milkshape 3D
// (http://www.swissquake.ch/chumbalum-soft) and then export it
// to a new 3D Studio file. This seems to fix many of the problems
// but there is a limit on the number of faces and vertices Milkshape 3D
// can read.
//
// Usage:
// Model_3DS m;
//
// m.Load("model.3ds"); // Load the model
// m.Draw();			// Renders the model to the screen
//
// // If you want to show the model's normals
// m.shownormals = true;
//
// // If the model is not going to be lit then set the lit
// // variable to false. It defaults to true.
// m.lit = false;
//
// // You can disable the rendering of the model
// m.visible = false;
//
// // You can move and rotate the model like this:
// m.rot.x = 90.0f;
// m.rot.y = 30.0f;
// m.rot.z = 0.0f;
//
// m.pos.x = 10.0f;
// m.pos.y = 0.0f;
// m.pos.z = 0.0f;
//
// // If you want to move or rotate individual objects
// m.Objects[0].rot.x = 90.0f;
// m.Objects[0].rot.y = 30.0f;
// m.Objects[0].rot.z = 0.0f;
//
// m.Objects[0].pos.x = 10.0f;
// m.Objects[0].pos.y = 0.0f;
// m.Objects[0].pos.z = 0.0f;
//
//////////////////////////////////////////////////////////////////////
#pragma once
#ifndef MODEL_3DS_H
#define MODEL_3DS_H

#include <stdio.h>
#include <string.h>
#include "CZAIL.h"

class Model_3DS
{
public:
	// A VERY simple vector struct
	// I could have included a complex class but I wanted the model class to stand alone
	struct Vector {
		float x;
		float y;
		float z;
	};

	// Vertex struct to make code easier to read in places
	struct Vertex {
		float x;
		float y;
		float z;
	};

	// Color struct holds the diffuse color of the material
	struct Color4i {
		unsigned char r;
		unsigned char g;
		unsigned char b;
		unsigned char a;
	};

	// Holds the material info
	// TODO: add color support for non textured polys
	struct Material {
		char name[80];	// The material's name
		GLuint tex;	// The texture (this is the only outside reference in this class)
		bool textured;	// whether or not it is textured
		Color4i color;
		void Use(){
            glEnable(GL_TEXTURE_2D);								// Enable texture mapping
            glBindTexture(GL_TEXTURE_2D, tex);				// Bind the texture as the current one
		}
	};

	// Every chunk in the 3ds file starts with this struct
	struct ChunkHeader {
		unsigned short id;	// The chunk's id
		unsigned long  len;	// The lenght of the chunk
	};

	// I sort the mesh by material so that I won't have to switch textures a great deal
	struct MaterialFaces {
		unsigned short *subFaces;	// Index to our vertex array of all the faces that use this material
		int numSubFaces;			// The number of faces
		int MatIndex;				// An index to our materials
	};

	// The 3ds file can be made up of several objects
	struct Object {
		char name[80];				// The object name
		float *Vertexes;			// The array of vertices
		float *Normals;				// The array of the normals for the vertices
		float *TexCoords;			// The array of texture coordinates for the vertices
		unsigned short *Faces;		// The array of face indices
		int numFaces;				// The number of faces
		int numMatFaces;			// The number of differnet material faces
		int numVerts;				// The number of vertices
		int numTexCoords;			// The number of vertices
		bool textured;				// True: the object has textures
		MaterialFaces *MatFaces;	// The faces are divided by materials
		Vector pos;					// The position to move the object to
		Vector rot;					// The angles to rotate the object
	};

	char *modelname;		// The name of the model
	char *path;				// The path of the model
	int numObjects;			// Total number of objects in the model
	int numMaterials;		// Total number of materials in the model
	int totalVerts;			// Total number of vertices in the model
	int totalFaces;			// Total number of faces in the model
	bool shownormals;		// True: show the normals
	Material *Materials;	// The array of materials
	Object *Objects;		// The array of objects in the model
	Vector pos;				// The position to move the model to
	Vector rot;				// The angles to rotate the model
	float scale;			// The size you want the model scaled to
	bool lit;				// True: the model is lit
	bool visible;			// True: the model gets rendered
	void Load(char *name);	// Loads a model
	void Draw();			// Draws the model
	void Render();
	FILE *bin3ds;			// The binary 3ds file
	Model_3DS();			// Constructor
	virtual ~Model_3DS();	// Destructor

private:
	void IntColorChunkProcessor(long length, long findex, int matindex);
	void FloatColorChunkProcessor(long length, long findex, int matindex);
	// Processes the Main Chunk that all the other chunks exist is
	void MainChunkProcessor(long length, long findex);
		// Processes the model's info
		void EditChunkProcessor(long length, long findex);

			// Processes the model's materials
			void MaterialChunkProcessor(long length, long findex, int matindex);
				// Processes the names of the materials
				void MaterialNameChunkProcessor(long length, long findex, int matindex);
				// Processes the material's diffuse color
				void DiffuseColorChunkProcessor(long length, long findex, int matindex);
				// Processes the material's texture maps
				void TextureMapChunkProcessor(long length, long findex, int matindex);
					// Processes the names of the textures and load the textures
					void MapNameChunkProcessor(long length, long findex, int matindex);

			// Processes the model's geometry
			void ObjectChunkProcessor(long length, long findex, int objindex);
				// Processes the triangles of the model
				void TriangularMeshChunkProcessor(long length, long findex, int objindex);
					// Processes the vertices of the model and loads them
					void VertexListChunkProcessor(long length, long findex, int objindex);
					// Processes the texture cordiantes of the vertices and loads them
					void TexCoordsChunkProcessor(long length, long findex, int objindex);
					// Processes the faces of the model and loads the faces
					void FacesDescriptionChunkProcessor(long length, long findex, int objindex);
						// Processes the materials of the faces and splits them up by material
						void FacesMaterialsListChunkProcessor(long length, long findex, int objindex, int subfacesindex);

	// Calculates the normals of the vertices by averaging
	// the normals of the faces that use that vertex
	void CalculateNormals();
};

#endif MODEL_3DS_H
